Narrow belt sorter
A material handling system including a sorter that uses compressed air and drive from the narrow belts to cause articles or loads to change from one conveyor segment to an adjacent segment.
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This U.S. Utility Patent Application claims the benefit of U.S. Provisional Application Ser. No. 61/682,397 filed Aug. 13, 2012, the entire disclosure of the application being considered part of the disclosure of this application and hereby incorporated by reference.
BACKGROUND OF THE INVENTION1. Technical Field
The present invention generally relates to a material handling system and more particularly, to a narrow belt conveyor system including a cost effective sorter that allows articles or loads to change from one conveyor segment to an adjacent segment.
2. Related Art
Narrow belt conveyor systems use multiple, continuously moving parallel belts for conveying flat bottom objects or loads along conveyor segments, particularly straight runs. Narrow belt conveyor systems are often used in conjunction with accessories such as sorters, transfers, accumulators, and/or diverters. The plurality of narrow belts and the spaces between the belts allow a sorter to be placed within the frame of the relevant conveyor segment, and selectively extend upward between the plurality of narrow belts to change the direction of conveyed loads, such as to an adjacent conveyor segment. More specifically, such sorters typically move from a retracted position that is beneath the top surface of the conveyor belts to an extended position slightly above the top surface of the narrow belts so that the sorter may engage the underside of the loads to change their travel direction. Such narrow belt sorters may include rollers or wheels.
Narrow belt conveyors are popular because of their versatility. In particular, they allow easy modification of the placement of various sorters, accumulators, transfers, and/or diverters to suit an operator's changing need. More specifically, a sorter may be placed anywhere along the travel path of the narrow belts, specifically under the linear segment of the narrow belts. Therefore, the conveyor system may have an original position at an original transfer point and, if it is desirable to move the transfer point or reconfigure the potential travel paths by repositioning various conveyor segments, the sorter may be easily moved to a new transfer point. One major issue with moving narrow belt sorters is that the rollers and wheels of the narrow belt sorter typically require substantial amounts of power to move the loads at an angle relative to the primary conveyor segment. More specifically, the sorter must quickly rise to its desired height above the individual belts, and at the same time, the rollers must be quickly spun up to the desired speed to quickly shift the load to an adjacent conveyor segment. As used in this application, the term “primary segment” is the segment including the sorter, and the conveyor segments to which the sorter passes the various loads are referred to as “adjacent segments”. A conveyor system may include multiple primary segments, and any adjacent segments, if it includes a sorter, may becoming the primary segment when the load is transferred from the primary to the subsequent adjacent segment. Some sorters may be configured to sort objects off either side of the primary conveyor segment, as illustrated in
One major issue with sorters is the required quick increase in rotational speed of the load rollers and the change in rotational directions of the load rollers is power intensive. Most sorters require a 240 or a 480 volt electrical line to an electrical motor to drive the load rollers. Electrical motors capable of driving the load rollers are expensive, thereby raising the initial product cost. During installation, electrical power must be run to the location of each sorter, which is a major component of the installation costs. Installation of the required circuits, conduit lines and outlets is expensive, both from a material cost and additional time requirements to complete installation. In addition, if changes are needed to the conveyor system after installation, the costs of reconfiguring the outlet locations and the existing electrical lines is expensive. Therefore, while the sorter itself may be easily unbolted from the frame and moved to a new location, the relocating of the power supply is expensive and typically requires specialized expertise.
SUMMARY OF THE INVENTIONThe present invention is generally directed to a material handling system capable of being easily reconfigured, and more particularly, to a narrow belt conveyor system having a sorter capable of easy configuration and lower installation costs, as well as being particularly suited to allow easy reconfiguration without the need to extend or change electrical power lines. More specifically, the sorter eliminates expensive electrical motors that normally drive the rotation of the rollers, and instead selectively uses the existing narrow belts of the primary conveyor segment to power the rotation of the load rollers. The rotation of the load rollers is powered by the passage of the narrow belts, specifically the return belt through the sorter, yet the sorter may easily be repositioned with the primary conveyor segment without disassembly and without removing the narrow belts.
The present invention is further directed to a sorter for a narrow belt conveyor system having at least one narrow belt including a return belt portion and a carrier belt portion. The sorter includes at least one of a plurality of rollers and a plurality of wheels, and at least one drive roller configured to be selectively driven by the return belt portion and thereby transfer drive to the at least one of a plurality of rollers and a plurality of wheels. At least one drive belt operationally couples the at least one drive roller to the at least one of the plurality or rollers and the plurality of wheels. More specifically, the at least one drive belt extends between the at least one drive roller and the at least one of the plurality of rollers and the plurality of wheels. As discussed below, a number of belts may be used with intervening rollers, such as the intermediary roller. At least one of a first drive belt extends between the at least one drive roller and the intermediary roller and an intermediary drive belt extends between the intermediary roller and the at least one of the plurality of rollers and the plurality of wheels.
The sorter may further including a pneumatic system having a moveable roller configured to move between at least a first position and a neutral position and wherein when the moveable roller is in the first position the at least one drive roller is configured to engage the return belt portion, and when the moveable roller is in the neutral position the at least one drive roller is free of engagement with the return belt portion. The at least one drive roller includes at least one upper drive roller and at least one lower drive roller. An inter-drive belt operationally couples the at least one upper drive roller and the at least one lower drive roller together to rotate in the same rotational direction. At least one of the at least one upper drive roller and the at least one lower drive roller is directly coupled to the at least one intermediary roller with a first drive belt. If an at least one intermediary roller is included, it is coupled to the at least one of the plurality of rollers and the plurality of wheels with at least one intermediary drive belt.
The sorter further includes a pneumatic system having a moveable roller configured to move between at least a first position, a neutral position, and a second position. The moveable roller is configured to move the return belt selectively into engagement with the at least one upper drive roller to move the at least one of a plurality of load rollers and a plurality of wheels in a first direction; between the rollers and free from engaging the at least one upper drive roller and the at least one lower drive roller in a neutral position and into engagement with the at least one lower drive roller to move the at least one of a plurality of load rollers and a plurality of wheels in a second direction and wherein the first direction is opposite the second direction. More specifically, the pneumatic system is capable of moving a moveable roller between a first position, a neutral position and a second position, and wherein the neutral position is between the first position and the second position and wherein the pneumatic system includes at least one pneumatic actuator. The at least one pneumatic actuator has a three position binary movement using a fixed cylinder at an opposing end from a pivotable cylinder and wherein each of the fixed cylinder and the pivotable cylinder are capable of moving between a retracted position and an extended position. The fixed cylinder is fixedly secured to the sorter and the pivotable cylinder is operationally coupled to the moveable roller to move the moveable roller between the first position, the neutral position and the second position. In the first position both of the fixed and pivotable cylinders are in the retracted position, in the neutral position one of the fixed and pivotable cylinders is in the retracted position and the other of the fixed and pivotable cylinders is extended and in the second position both of the pivotable and fixed cylinders are in the extended position. The pneumatic system further includes, in addition to the pneumatic actuator, a cam and each of the pneumatic actuator and the moveable roller are coupled to the cam, with the pneumatic actuator moving the cam to in turn move the moveable roller in an arcuate motion.
The sorter may include a neutral roller wherein in the first position the neutral roller does not engage the return belt and the return belt engages only one of the at least one upper drive roller and the at least one lower drive roller. The moveable drive roller engages the return belt and wherein each of the at least one upper drive roller and at least one lower drive roller do not engage the return belt. More specifically, only one of the at least one upper drive roller and at least one lower drive roller can engage the return belt at a time, as the return belt moves them in opposite directions, and they are tied together for simultaneous rotation. As such, in the second position the return belt engages the moveable roller and one of the at least one upper drive roller and the at least one lower drive roller.
The present invention is directed to a narrow belt conveyor system for carrying loads. The system includes at least one narrow belt having a return belt portion and a carrier belt portion and a sorter. The return belt portion passes through the sorter to drive the sorter to be able to sort packages off of the primary conveyor segment to adjacent segments. The sorter includes at least one drive roller, a moveable roller configured to move the return belt portion in and out of engagement with the at least one drive roller, at least one of a plurality of rollers and a plurality of wheels, and at least one drive belt operationally coupling the at least one drive roller to the at least one of the plurality or rollers and the plurality of wheels. The at least one upper drive roller is positioned opposite the at least one lower drive roller with the return belt extending therebetween.
The at least one drive belt extends between the at least one drive roller and the at least one of the plurality of rollers and the plurality of wheels. The sorter includes an intermediary roller. The at least one drive belt includes at least one of a first drive belt extending between the at least one drive roller and the intermediary roller and an intermediary drive belt extending between the intermediary roller and the at least one of the plurality of rollers and the plurality of wheels.
The at least one drive roller includes at least one upper drive roller and at least one lower drive roller. More specifically, the sorter further includes at least one intermediary roller and the at least one of the at least one upper drive roller and the at least one lower drive roller is directly coupled to the at least one intermediary roller with a first drive belt. As configured, at least one of the at least one upper drive roller and the at least one lower drive roller is not directly coupled to the intermediary roller. In addition, the at least one upper drive roller and the at least one lower drive roller are directly coupled with a second drive belt. Further, the at least one intermediary roller is coupled to the at least one of the plurality of rollers and the plurality of wheels.
The sorter includes a moveable roller is configured to move the return belt selectively into engagement with the at least one upper drive roller to move the at least one of the plurality of load rollers and the plurality of wheels in a first direction; between the rollers and free from engaging the at least one upper drive roller and the at least one lower drive roller in a neutral position; and into engagement with the at least one lower drive roller to move the at least one of the plurality of load rollers and the plurality of wheels in a second direction and wherein the first direction is opposite the second direction.
In addition, the at least one of a plurality of load rollers and a plurality of wheels, and the intermediary roller are located on opposite sides of the at least one upper drive roller and the at least one lower drive roller.
The sorter includes a pneumatic system capable of moving the moveable roller between a first position, a neutral position and a second position, and wherein the neutral position is between the first position and the second position. The pneumatic system includes a pneumatic actuator having fixed cylinder at an opposing end from a pivotable cylinder and wherein each of the fixed cylinder and the pivotable cylinder are capable of moving between a retracted position and an extended position and wherein in the first position both of the fixed and pivotable cylinders are in the retracted position, in the neutral position one of the fixed and pivotable cylinders is in the retracted position and the other of the fixed and pivotable cylinders is in the extended position and in the second position both of the pivotable and fixed cylinders are in the extended position. The pneumatic system in addition to a pneumatic actuator includes a cam and wherein each of the pneumatic actuator and the moveable roller are coupled to the cam. The moveable roller is configured to move between a first position, a neutral position and a second position. In the first position the moveable roller does not engage the return belt and the return belt engages only one of the at least one upper drive roller and the at least one lower drive roller. In the neutral position the moveable drive roller engages the return belt and wherein each of the at least one upper drive roller and at least one lower drive roller do not engage the return belt. In the second position the return belt engage the moveable roller and one of the at least one upper drive roller and the at least one lower drive roller.
The carrier belt portion passes over the sorter and the sorter is configured to extend between a retracted position and an extended position and in the retracted position the at least one of the plurality of rollers and the plurality of wheels is below the carrier belt portion and in the extended position, the at least one of the plurality of rollers and the plurality of wheels is at least partially above the carrier belts such that the load engages the at least one of the plurality of rollers and the plurality of wheels and not the carrier belt portion.
The present invention is also directed to a sorter for a narrow belt conveyor system having at least one narrow belt including a return belt portion and a carrier belt portion. The sorter includes at least one of a plurality of rollers and a plurality of wheels, at least upper drive roller and at least one lower drive roller and wherein each the at least one upper drive roller and the at least one lower drive roller is configured to be selectively driven by the return belt portion and wherein the at least one upper roller engaging the return belt portion rotates the at least one of the plurality of rollers and the plurality of wheels in a first direction and the at least one lower drive roller engaging the return belt portion rotates the at least one of the plurality of rollers and the plurality of wheels in a second direction and wherein the first and second directions are opposite, and wherein the sorter is configured to rotate the at least one of a plurality of rollers and a plurality of wheels in the first direction and the second direction without the use of electrical motors in the sorter; and at least one drive belt operationally coupling the at least one drive roller to the at least one of the plurality or rollers and the plurality of wheels.
The sorter further includes a pneumatic system and a moveable roller and wherein the pneumatic system is configured to move the moveable roller to position the return belt portion in and out of engagement with each of the at least one upper drive roller and the at least one lower drive roller, and wherein when the moveable roller is in a first position the at least one of a plurality of rollers and a plurality of wheels rotates in the second direction and when the moveable roller is in a second position, the at least one of a plurality of rollers and a plurality of wheels rotates in the second direction and wherein the moveable roller also includes a neutral position between the first position and the second position, and a pneumatic system configured to move the moveable roller.
The conveyor system 10 of the present invention may be made in practically any desired configuration by combining straight run segments, curved segments, and any other desirable segments in a variety of configurations with various sorters, accumulators, transfers and/or diverters as desired by the needs of the user. As illustrated in
A sorter 100 is generally located at the intersection of the primary conveyor segment 12 with an adjacent conveyor segment 14, such as the two adjacent segments in
As further illustrated in
As discussed in the Background of the Invention, the use of sorters with narrow belt conveyors is common; however, each sorter currently needs a powerful electrical motor to drive the load rollers in the desired direction to move the load in a timely fashion from the primary segment 12 to an adjacent segment 14. As such, even while the sorter could easily be slid to a desired position, or moved allowing for easy reconfiguration, the sorter's requirement for electrical power, typically a 480 volt input line, requires significant reconfiguration of the electrical system, unless an outlet already exists at the new location. More specifically, if the sorter was slid, for example, 5 feet in one direction, an electrician would be called to add a junction box at the old outlet and extend the electrical wires through conduit to a new outlet box proximate to the new location of the sorter. This prevented most operators of conveyor systems from easily reconfiguring or making minor changes to their conveyor systems without specialized expertise. In addition, even during installation of a new conveyor system, a major cost of the system was the provision of power to the various sorter devices. Therefore, current sorters with their electrical power requirements lack flexibility, even if they are capable of easy movement relative to the frame of the conveyor segment.
The present invention is generally directed to a sorter 100 for use in a narrow belt conveyor system 10 that eliminates costly electrical motors as well as the need to run electrical lines to the sorter 100, such as 240 or 480 volt electric lines. Instead, the sorter 100 of the present invention only needs pneumatic air supplied to the sorter 100. Pneumatic air lines 40 are already usually supplied through flexible polyethylene tubes under the conveyor 10, thereby lowering material costs and installation costs. Many sorters 100 already have pneumatic air supplied to drive the sorter 100 from the recessed position between the narrow belts 30 to an extended position where it would engage the load 8. The present invention uses this compressed air to drive a pneumatic system 110 which places the sorter in opposing engagement with the return segments or return belt of the narrow belts, and as such replaces the expensive motors. The pneumatic system 110 does not directly spin the rollers 102 using compressed air, but instead simply moves a drive mechanism 150 to selectively engage either side 33, 35 of the return belt portion 34 of the narrow belts 30, thereby allowing the load rollers 102 to rotate in the desired direction. As such, the drive mechanism 150 uses the power freely available from the traveling individual narrow belts 30 to power the load rollers 102.
While no electric lines need to be run to the sorter 100 to drive electric motors, it is expected that at least low voltage control wires will be run to the sorter 100. These control wires are typically easily run alongside the frame 20 of the relative conveyor segment 12, and do not have the same requirements as the electrical lines traditionally used to power the motors in the sorters. These control wires are used to synchronize the sorter 100 with the rest of the system 10, and specifically are used to control the timing for the sorter 100: to extend from the retracted position to the extended position as illustrated in
As the main conveyor segment 12 in which the sorter 100 is located already has carrier belt segments 32 and a return belt segments 34 forming the endless narrow belt loops 30, and because the sorter 100 only needs to operate when the main conveyor segment 12 is in operation, the present invention uses the freely available drive power from the narrow belts 30. In particular, the return belt segments or portions 34 are used to drive the load rollers in place of electrical motors. The main drive for the narrow belts 30 is typically capable, without modification, of powering numerous additional devices. However, in certain circumstances it may be necessary to modify the main drive. The return belt portions 34 only travel in one direction, but the present invention provides a reversible directional drive to the load rollers.
An exemplary sorter 100 including the present invention is illustrated in
Although not illustrated, the sorter 100 includes a mechanism to raise and lower the sorter, such that the rollers move from a retracted position below the surface of the narrow belts 30 to an extended position above the surface of the narrow belts 30, as illustrated in
There are two primary configurations of drive rollers 160 illustrated in the Figures.
The return belts 34 of the narrow belts 30 passing through the sorter 102 will pass over a neutral roller 170, which aligns the belts 30, 34 in the desired position. More specifically, the neutral roller 170, is illustrated in
After passing over the neutral roller 170, the return belts 34 pass between the lower drive roller 164 and upper drive roller 162. Depending upon the position of the moveable roller 82, the return belts 34 would engage either the upper drive roller 162 or the lower drive roller 164, or in some cases, in a neutral position such as when the load rollers 102 are not rotating, neither of the upper or lower drive rollers 162, 164. Of course, the present invention can be configured without the neutral position with the load rollers 102 always moving in at least one direction. The present invention shows at least two load roller drive systems 150, each including the cams 122, pneumatic actuators 112, moveable rollers 182, upper drive rollers 162, lower drive rollers 164, and neutral rollers 170. Of course, as discussed above, the sorter 100 could use only a single load roller drive mechanism.
After the return belts 34 pass over the neutral roller 170 and between the upper and lower drive rollers 162, 164, they pass over or by the moveable roller 182 attached to the cam 122, depending on the position of the moveable roller 182. The moveable roller 182 is used to position the return belts 34 of the narrow belts 30 relative to the upper and lower drive rollers 162, 164, and more specifically to cause the return belts 34 to selectively engage one of the upper and lower drive rollers 162, 164. As such, the moveable roller 182 solely positions the narrow belts relative to the neutral roller 170.
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Claims
1. A sorter for a narrow belt conveyor system having at least one narrow belt including a return belt portion and a carrier belt portion, the sorter comprising:
- at least one of a plurality of rollers and a plurality of wheels;
- at least one drive roller and wherein the at least one drive roller is configured to be selectively driven by the return belt portion; and
- at least one drive belt operationally coupling the at least one drive roller to the at least one of the plurality of rollers and the plurality of wheels.
2. The sorter of claim 1 wherein the at least one drive belt extends between the at least one drive roller and the at least one of the plurality of rollers and the plurality of wheels.
3. The sorter of claim 1 further including an intermediary roller and wherein the at least one drive belt includes at least one of a first drive belt extending between the at least one drive roller and the intermediary roller and an intermediary drive belt extending between the intermediary roller and the at least one of the plurality of rollers and the plurality of wheels.
4. The sorter of claim 1 further including a pneumatic system having a moveable roller configured to move between at least a first position and a neutral position and wherein when the moveable roller is in the first position the at least one drive roller is configured to engage the return belt portion, and when the moveable roller is in the neutral position the at least one drive roller is free of engagement with the return belt portion.
5. The sorter of claim 1 wherein the at least one drive roller includes at least one upper drive roller and at least one lower drive roller.
6. The sorter of claim 5 further including an inter-drive belt operationally coupling the at least one upper drive roller and the at least one lower drive roller together to rotate in the same rotational direction.
7. The sorter of claim 6 further including at least one intermediary roller and wherein at least one of the at least one upper drive roller and the at least one lower drive roller is directly coupled to the at least one intermediary roller with a first drive belt.
8. The sorter of claim 7 wherein the at least one intermediary roller is coupled to the at least one of the plurality of rollers and the plurality of wheels with at least one intermediary drive belt.
9. The sorter of claim 1 further including a pneumatic system having a moveable roller configured to move between at least a first position, a neutral position, and a second position, and wherein the at least one drive roller includes at least one upper drive roller and at least one lower drive roller, and the moveable roller is configured to move the return belt selectively into engagement with the at least one upper drive roller to move the at least one of a plurality of load rollers and a plurality of wheels in a first direction; between the rollers and free from engaging the at least one upper drive roller and the at least one lower drive roller in a neutral position and into engagement with the at least one lower drive roller to move the at least one of a plurality of load rollers and a plurality of wheels in a second direction and wherein the first direction is opposite the second direction.
10. The sorter of claim 1 further including a pneumatic system capable of moving a moveable roller between a first position, a neutral position and a second position, and wherein the neutral position is between the first position and the second position and wherein the pneumatic system includes at least one pneumatic actuator.
11. The sorter of claim 10 wherein the at least one pneumatic actuator has a three position binary movement using a fixed cylinder at an opposing end from a pivotable cylinder and wherein each of the fixed cylinder and the pivotable cylinder are capable of moving between a retracted position and an extended position.
12. The sorter of claim 11 wherein the fixed cylinder is fixedly secured to the sorter and the pivotable cylinder is operationally coupled to the moveable roller to move the moveable roller between the first position, the neutral position, and the second position.
13. The sorter of claim 12 and wherein in the first position both of the fixed and pivotable cylinders are in the retracted position, in the neutral position one of the fixed and pivotable cylinders is in the retracted position and the other of the fixed and pivotable cylinders is extended and in the second position both of the pivotable and fixed cylinders are in the extended position.
14. The sorter of claim 10 further including a neutral roller wherein in the first position the neutral roller does not engage the return belt and the return belt engages only one of the at least one upper drive roller and the at least one lower drive roller.
15. The sorter of claim 10 wherein in the neutral position the moveable drive roller engages the return belt and wherein each of the at least one upper drive roller and at least one lower drive roller do not engage the return belt.
16. The sorter of claim 10 wherein in the second position the return belt engage the moveable roller and one of the at least one upper drive roller and the at least one lower drive roller.
17. The sorter of claim 10 wherein the pneumatic system further includes a pneumatic actuator and a cam and wherein each of the pneumatic actuator and the moveable roller are coupled to the cam.
18. A narrow belt conveyor system for carrying loads, the system comprising:
- at least one narrow belt having a return belt portion and a carrier belt portion;
- a sorter and wherein the return belt portion passes through the sorter, the sorter including: at least one drive roller; a moveable roller configured to move the return belt portion in and out of engagement with the at least one drive roller; at least one of a plurality of rollers and a plurality of wheels; and at least one drive belt operationally coupling the at least one drive roller to the at least one of the plurality or rollers and the plurality of wheels.
19. The narrow belt conveyor system of claim 18 wherein the at least one drive belt extends between the at least one drive roller and the at least one of the plurality of rollers and the plurality of wheels.
20. The narrow belt conveyor system of claim 18 further including an intermediary roller and wherein the at least one drive belt includes at least one of a first drive belt extending between the at least one drive roller and the intermediary roller and an intermediary drive belt extending between the intermediary roller and the at least one of the plurality of rollers and the plurality of wheels.
21. The narrow belt conveyor system of claim 18 wherein the at least one drive roller includes at least one upper drive roller and at least one lower drive roller.
22. The narrow belt conveyor system of claim 21 further including at least one intermediary roller and wherein at least one of the at least one upper drive roller and the at least one lower drive roller is directly coupled to the at least one intermediary roller with a first drive belt.
23. The narrow belt conveyor system of claim 22 wherein at least one of the at least one upper drive roller and the at least one lower drive roller is not directly coupled to the intermediary roller.
24. The narrow belt conveyor system of claim 23 wherein the at least one upper drive roller and the at least one lower drive roller are directly coupled with a second drive belt.
25. The narrow belt conveyor system of claim 22 wherein the at least one intermediary roller is coupled to the at least one of the plurality of rollers and the plurality of wheels.
26. The narrow belt conveyor system of claim 21 wherein the moveable roller is configured to move the return belt selectively into engagement with the at least one upper drive roller to move the at least one of the plurality of load rollers and the plurality of wheels in a first direction; between the rollers and free from engaging the at least one upper drive roller and the at least one lower drive roller in a neutral position; and into engagement with the at least one lower drive roller to move the at least one of the plurality of load rollers and the plurality of wheels in a second direction and wherein the first direction is opposite the second direction.
27. The narrow belt conveyor system of claim 22 wherein the at least one upper drive roller is positioned opposite the at least one lower drive roller with the return belt extending therebetween.
28. The narrow belt conveyor system of claim 27 further including an intermediary roller and wherein the at least one of a plurality of load rollers and a plurality of wheels, and the intermediary roller are located on opposite sides of the at least one upper drive roller and the at least one lower drive roller.
29. The narrow belt conveyor system of claim 18 further including a pneumatic system capable of moving the moveable roller between a first position, a neutral position and a second position, and wherein the neutral position is between the first position and the second position.
30. The narrow belt conveyor system of claim 29 wherein the pneumatic system includes a pneumatic actuator having fixed cylinder at an opposing end from a pivotable cylinder and wherein each of the fixed cylinder and the pivotable cylinder are capable of moving between a retracted position and an extended position and wherein in the first position both of the fixed and pivotable cylinders are in the retracted position, in the neutral position one of the fixed and pivotable cylinders is in the retracted position and the other of the fixed and pivotable cylinders is in the extended position and in the second position both of the pivotable and fixed cylinders are in the extended position.
31. The narrow belt conveyor system of claim 29 wherein the pneumatic system further includes a pneumatic actuator and a cam and wherein each of the pneumatic actuator and the moveable roller are coupled to the cam.
32. The narrow belt conveyor system of claim 18 wherein the moveable roller is configured to move between a first position, a neutral position and a second position and wherein the at least one drive roller includes at least one upper drive roller and at least one lower drive roller.
33. The narrow belt conveyor system of claim 18 wherein in the first position the moveable roller does not engage the return belt and the return belt engages only one of the at least one upper drive roller and the at least one lower drive roller.
34. The narrow belt conveyor system of claim 33 wherein in the neutral position the moveable drive roller engages the return belt and wherein each of the at least one upper drive roller and at least one lower drive roller do not engage the return belt.
35. The narrow belt conveyor system of claim 33 wherein in the second position the return belt engage the moveable roller and one of the at least one upper drive roller and the at least one lower drive roller.
36. The narrow belt conveyor system of claim 18 wherein the carrier belt portion passes over the sorter and wherein the sorter is configured to extend between a retracted position and an extended position and in the retracted position the at least one of the plurality of rollers and the plurality of wheels is below the carrier belt portion and in the extended position, the at least one of the plurality of rollers and the plurality of wheels is at least partially above the carrier belts such that the load engages the at least one of the plurality of rollers and the plurality of wheels and not the carrier belt portion.
37. A sorter for a narrow belt conveyor system having at least one narrow belt including a return belt portion and a carrier belt portion, the sorter comprising:
- at least one of a plurality of rollers and a plurality of wheels;
- at least upper drive roller and at least one lower drive roller and wherein each the at least one upper drive roller and the at least one lower drive roller is configured to be selectively driven by the return belt portion and wherein the at least one upper roller engaging the return belt portion rotates the at least one of the plurality of rollers and the plurality of wheels in a first direction and the at least one lower drive roller engaging the return belt portion rotates the at least one of the plurality of rollers and the plurality of wheels in a second direction and wherein the first and second directions are opposite, and wherein the sorter is configured to rotate the at least one of a plurality of rollers and a plurality of wheels in the first direction and the second direction without the use of electrical motors in the sorter; and
- at least one drive belt operationally coupling the at least one drive roller to the at least one of the plurality or rollers and the plurality of wheels.
38. The sorter of claim 37 further including a pneumatic system and a moveable roller and wherein the pneumatic system is configured to move the moveable roller to position the return belt portion in and out of engagement with each of the at least one upper drive roller and the at least one lower drive roller, and wherein when the moveable roller is in a first position the at least one of a plurality of rollers and a plurality of wheels rotates in the second direction and when the moveable roller is in a second position, the at least one of a plurality of rollers and a plurality of wheels rotates in the second direction and wherein the moveable roller also includes a neutral position between the first position and the second position, and a pneumatic system configured to move the moveable roller.
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Type: Grant
Filed: Aug 13, 2013
Date of Patent: Dec 22, 2015
Patent Publication Number: 20140041989
Assignee: TGW Systems, Inc. (Spring Lake, MI)
Inventor: Matthew Earl Wallace (West Olive, MI)
Primary Examiner: Gene Crawford
Assistant Examiner: Lester Rushin
Application Number: 13/965,678
International Classification: B65G 47/46 (20060101); B65G 47/54 (20060101); B65G 13/07 (20060101); B65G 13/071 (20060101);